Generation of Optical Vortices by Diffraction from Circular Apertures

Jun Yao; Yaqiang Qin; Yihua Bai; Mingsheng Gao; Lei Ming Zhou; Jiafang Li; Yuqiang Jiang; Yuanjie Yang

doi:10.1021/acsphotonics.3c01038

Generation of Optical Vortices by Diffraction from Circular Apertures

Jun Yao, Yaqiang Qin, Yihua Bai, Mingsheng Gao, Lei Ming Zhou, Jiafang Li, Yuqiang Jiang^*, Yuanjie Yang^*

^*Corresponding author for this work

School of Physics

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

In optics, to generate vortex beams, we normally need specific man-made structures such as spiral phase plates and computer-generated holograms. On the other hand, wave diffraction is the cornerstone of physical optics, and the effect of diffraction from a circular aperture is of importance for many optical instrumentation. Here, we propose and demonstrate that when a circularly polarized Gaussian beam is diffracted by a circular aperture, optical vortices are generated in the Fresnel region. The generation of an optical vortex can be attributed to spin-to-orbital angular momentum conversion. Moreover, we show that the orbital angular momentum can be transferred to the trapped particles and make orbital rotation. Counterintuitive, we find that the sense of rotation is consistent with the spin (Belinfante’s) momentum, contrary to the time-averaged Poynting momentum.

Original language	English
Pages (from-to)	4267-4272
Number of pages	6
Journal	ACS Photonics
Volume	10
Issue number	12
DOIs	https://doi.org/10.1021/acsphotonics.3c01038
Publication status	Published - 20 Dec 2023

Keywords

diffraction of light
optical vortices
orbital angular momentum
spin-to-orbital angular momentum conversion
structured light

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10.1021/acsphotonics.3c01038

Cite this

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title = "Generation of Optical Vortices by Diffraction from Circular Apertures",

abstract = "In optics, to generate vortex beams, we normally need specific man-made structures such as spiral phase plates and computer-generated holograms. On the other hand, wave diffraction is the cornerstone of physical optics, and the effect of diffraction from a circular aperture is of importance for many optical instrumentation. Here, we propose and demonstrate that when a circularly polarized Gaussian beam is diffracted by a circular aperture, optical vortices are generated in the Fresnel region. The generation of an optical vortex can be attributed to spin-to-orbital angular momentum conversion. Moreover, we show that the orbital angular momentum can be transferred to the trapped particles and make orbital rotation. Counterintuitive, we find that the sense of rotation is consistent with the spin (Belinfante{\textquoteright}s) momentum, contrary to the time-averaged Poynting momentum.",

keywords = "diffraction of light, optical vortices, orbital angular momentum, spin-to-orbital angular momentum conversion, structured light",

author = "Jun Yao and Yaqiang Qin and Yihua Bai and Mingsheng Gao and Zhou, {Lei Ming} and Jiafang Li and Yuqiang Jiang and Yuanjie Yang",

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doi = "10.1021/acsphotonics.3c01038",

language = "English",

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T1 - Generation of Optical Vortices by Diffraction from Circular Apertures

AU - Yao, Jun

AU - Qin, Yaqiang

AU - Bai, Yihua

AU - Gao, Mingsheng

AU - Zhou, Lei Ming

AU - Li, Jiafang

AU - Jiang, Yuqiang

AU - Yang, Yuanjie

PY - 2023/12/20

Y1 - 2023/12/20

N2 - In optics, to generate vortex beams, we normally need specific man-made structures such as spiral phase plates and computer-generated holograms. On the other hand, wave diffraction is the cornerstone of physical optics, and the effect of diffraction from a circular aperture is of importance for many optical instrumentation. Here, we propose and demonstrate that when a circularly polarized Gaussian beam is diffracted by a circular aperture, optical vortices are generated in the Fresnel region. The generation of an optical vortex can be attributed to spin-to-orbital angular momentum conversion. Moreover, we show that the orbital angular momentum can be transferred to the trapped particles and make orbital rotation. Counterintuitive, we find that the sense of rotation is consistent with the spin (Belinfante’s) momentum, contrary to the time-averaged Poynting momentum.

AB - In optics, to generate vortex beams, we normally need specific man-made structures such as spiral phase plates and computer-generated holograms. On the other hand, wave diffraction is the cornerstone of physical optics, and the effect of diffraction from a circular aperture is of importance for many optical instrumentation. Here, we propose and demonstrate that when a circularly polarized Gaussian beam is diffracted by a circular aperture, optical vortices are generated in the Fresnel region. The generation of an optical vortex can be attributed to spin-to-orbital angular momentum conversion. Moreover, we show that the orbital angular momentum can be transferred to the trapped particles and make orbital rotation. Counterintuitive, we find that the sense of rotation is consistent with the spin (Belinfante’s) momentum, contrary to the time-averaged Poynting momentum.

KW - diffraction of light

KW - optical vortices

KW - orbital angular momentum

KW - spin-to-orbital angular momentum conversion

KW - structured light

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Generation of Optical Vortices by Diffraction from Circular Apertures

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Keywords

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